CN214970602U

CN214970602U - Emergency anesthesia device for respiratory tract burn

Info

Publication number: CN214970602U
Application number: CN202121202455.3U
Authority: CN
Inventors: 钱坤; 窦雪娇; 张子阳
Original assignee: Affiliated Hospital of Zunyi Medical University
Current assignee: Affiliated Hospital of Zunyi Medical University
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-12-03
Anticipated expiration: 2031-05-31

Abstract

The utility model discloses an urgent anaesthesia device that respiratory track burn was used, send into the mechanism including box and narcotic, the narcotic is sent into the mechanism and is included ultrasonic nebulizer, quantitative medicine mechanism, first pipeline, venturi mixer, hose, gas holder, third pipeline, oxygen jar, second pipeline, ultrasonic nebulizer installs the top at the box, ultrasonic nebulizer installs quantitative medicine mechanism on, ultrasonic nebulizer's export is through first pipeline intercommunication on the drawing mouth of venturi mixer, the inside at the box is installed to the oxygen jar, the export of oxygen jar is through second pipeline intercommunication on the air inlet of venturi mixer. The utility model can stably input the airflow into the oxygen mask through the hose by the airflow of the air storage tank, and the incoming airflow can not only provide necessary oxygen for the patient, but also anaesthetize the respiratory tract; meanwhile, each component is integrated in the box body, so that the portable medical kit is convenient to carry, flexible to use and suitable for on-site real-time treatment.

Description

Emergency anesthesia device for respiratory tract burn

Technical Field

The utility model relates to a respiratory track treatment technical field especially relates to an urgent anaesthesia device of respiratory track burn usefulness.

Background

The smoke on the fire scene is generally large, incoming high-temperature smoke easily causes burning damage to respiratory tracts, anesthesia is needed to be carried out when treatment is carried out, so that the pain of patients is reduced as much as possible, the treatment is generally carried out in hospitals in the conventional mode, and no good on-site emergency equipment exists, so that the treatment is easily delayed, the pain of the patients is more relieved, and the emergency anesthesia device for the respiratory tract burning is provided aiming at the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an emergency anesthesia device for respiratory tract burn.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an urgent anaesthesia device that respiratory track burn was used, includes that box and anesthetic send into the mechanism, anesthetic send into the mechanism and include ultrasonic nebulizer, ration medicine adding mechanism, first pipeline, venturi mixer, hose, gas holder, third pipeline, oxygen jar, second pipeline, the top at the box is installed to the ultrasonic nebulizer, install ration medicine adding mechanism on the ultrasonic nebulizer, the export of ultrasonic nebulizer draws the mouth through first pipeline intercommunication at the venturi mixer, the inside at the box is installed to the oxygen jar, the export of oxygen jar is through second pipeline intercommunication on the air inlet of venturi mixer, the export of venturi mixer has the hose through third pipeline intercommunication.

Preferably, a first storage box and a second storage box are installed inside the box body, an anesthetic bottle is stored inside the first storage box, and an oxygen mask is stored inside the second storage box.

Preferably, the side of the box body is hinged with a box door, and the top of the box body is hinged with a box cover.

Preferably, the quantitative dosing mechanism comprises a measuring cup, a shut-off valve, a fourth pipeline, a sealing plug and a rope, the feeding port of the ultrasonic atomizer is communicated with the measuring cup through the fourth pipeline, the shut-off valve is installed on the pipe section of the fourth pipeline, and the top of the measuring cup is connected with the sealing plug through the rope.

Preferably, a first flow regulating valve is installed on a pipe section of the first pipeline, a second flow regulating valve is installed on a pipe section of the second pipeline, and a third flow regulating valve is installed on a pipe section of the hose.

Compared with the prior art, the beneficial effects of the utility model are that:

in the utility model, the hose is connected to the oxygen mask, and the patient wears the oxygen mask; the anesthetic liquid medicine is put into a measuring cup, a proper amount of anesthetic liquid medicine can be conveniently selected according to needs through the measuring cup, then a shut-off valve is opened, the anesthetic liquid medicine enters an ultrasonic atomizer, the ultrasonic atomizer atomizes the anesthetic liquid medicine, generated anesthetic mist enters an injection port of a venturi mixer through a first pipeline, oxygen flows enter an air inlet of the venturi mixer through a second pipeline, mixed air flows enter an air storage tank through a third pipeline, and then the mixed air flows can be stably input into an oxygen mask through a hose, and the inhaled air flows not only can provide necessary oxygen for a patient, but also can anaesthetize a respiratory tract; meanwhile, each component is integrated in the box body, so that the portable medical kit is convenient to carry, flexible to use and suitable for on-site real-time treatment.

Drawings

Fig. 1 is a schematic structural view of an emergency anesthesia apparatus for respiratory tract burn proposed by the present invention;

fig. 2 is a schematic structural view of an anesthetic feeding mechanism of an emergency anesthesia apparatus for treating respiratory tract burn according to the present invention;

fig. 3 is a schematic structural view of a quantitative medicine feeding mechanism of an emergency anesthesia apparatus for respiratory tract burn.

In the figure: the device comprises a box body 1, a first storage box 2, an anesthetic liquid bottle 3, a box door 4, a second storage box 5, an oxygen mask 6, an anesthetic feeding mechanism 7, an ultrasonic atomizer 701, a quantitative dosing mechanism 702, a measuring cup 7021, a shutoff valve 7022, a fourth pipeline 7023, a sealing plug 7024, a rope 7025, a first flow regulating valve 703, a first pipeline 704, a venturi mixer 705, a hose 706, a third flow regulating valve 707, an air storage tank 708, a third pipeline 709, a second flow regulating valve 710, an oxygen tank 711, a second pipeline 712 and a box cover 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, an emergency anesthetic device for respiratory tract burn comprises a box body 1 and an anesthetic feeding mechanism 7, wherein the anesthetic feeding mechanism 7 comprises an ultrasonic atomizer 701, a quantitative dosing mechanism 702, a first pipeline 704, a venturi mixer 705, a hose 706, a gas storage tank 708, a third pipeline 709, an oxygen tank 711 and a second pipeline 712, the ultrasonic atomizer 701 is installed at the top of the box body 1, the quantitative dosing mechanism 702 is installed on the ultrasonic atomizer 701, an outlet of the ultrasonic atomizer 701 is communicated with an injection port of the venturi mixer 705 through the first pipeline 704, the oxygen tank 711 is installed inside the box body 1, an outlet of the oxygen tank 711 is communicated with a gas inlet of the venturi mixer 705 through the second pipeline 712, and an outlet of the venturi mixer 705 is communicated with the hose 706 through the third pipeline 709.

The first storage box 2 and the second storage box 5 are installed inside the box body 1, the anesthetic bottle 3 is stored inside the first storage box 2, and the oxygen mask 6 is stored inside the second storage box 5.

The side of box 1 articulates there is chamber door 4, and the top of box 1 articulates there is case lid 8.

The quantitative dosing mechanism 702 comprises a measuring cup 7021, a shut-off valve 7022, a fourth pipeline 7023, a sealing plug 7024 and a rope 7025, the charging port of the ultrasonic atomizer 701 is communicated with the measuring cup 7021 through the fourth pipeline 7023, the shut-off valve 7022 is installed on the pipe section of the fourth pipeline 7023, and the top of the measuring cup 7021 is connected with the sealing plug 7024 through the rope 7025.

A first flow rate adjusting valve 703 is installed on a pipe section of the first pipe 704, a second flow rate adjusting valve 710 is installed on a pipe section of the second pipe 712, and a third flow rate adjusting valve 707 is installed on a pipe section of the hose 706.

The working principle is as follows: in the utility model, the hose 706 is connected to the oxygen mask 6, and the patient wears the oxygen mask 6; the anesthetic liquid medicine is put into a measuring cup 7021, a proper amount of anesthetic liquid medicine can be conveniently selected according to needs through the measuring cup 7021, then a shutoff valve 7022 is opened, the anesthetic liquid medicine enters an ultrasonic atomizer 701, the ultrasonic atomizer 701 atomizes the anesthetic liquid medicine, generated anesthetic mist enters an injection port of a venturi mixer 705 through a first pipeline 704, oxygen gas flows into an air inlet of the venturi mixer 705 through a second pipeline 712, mixed gas flows enter a gas storage tank 708 through a third pipeline 709, and then the mixed gas flows can be stably input into an oxygen mask 6 through a hose 706 through the gas storage tank 708, and the incoming gas flows not only can provide necessary oxygen for a patient, but also can anaesthetize a respiratory tract; meanwhile, each component is integrated in the box body 1, so that the portable medical kit is convenient to carry, flexible to use and suitable for on-site real-time treatment.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. An emergency anesthesia device for respiratory tract burn comprises a box body (1) and an anesthetic feeding mechanism (7), and is characterized in that the anesthetic feeding mechanism (7) comprises an ultrasonic atomizer (701), a quantitative dosing mechanism (702), a first pipeline (704), a Venturi mixer (705), a hose (706), a gas storage tank (708), a third pipeline (709), an oxygen tank (711) and a second pipeline (712), the ultrasonic atomizer (701) is installed at the top of the box body (1), the quantitative dosing mechanism (702) is installed on the ultrasonic atomizer (701), an outlet of the ultrasonic atomizer (701) is communicated with an injection port of the Venturi mixer (705) through the first pipeline (704), the oxygen tank (711) is installed inside the box body (1), an outlet of the oxygen tank (711) is communicated with a gas inlet of the Venturi mixer (705) through the second pipeline (712), the outlet of the Venturi mixer (705) is communicated with a hose (706) through a third pipeline (709).

2. The emergency anesthetic device for respiratory tract burn according to claim 1, wherein a first storage case (2) and a second storage case (5) are installed inside the case (1), wherein an anesthetic bottle (3) is stored inside the first storage case (2), and wherein an oxygen mask (6) is stored inside the second storage case (5).

3. An emergency anaesthetic device for respiratory tract burn comprising as claimed in claim 2 wherein the side of the casing (1) is hinged to a casing door (4) and the top of the casing (1) is hinged to a casing lid (8).

4. The emergency anesthesia apparatus for respiratory tract burn of claim 3, wherein the quantitative dosing mechanism (702) comprises a measuring cup (7021), a shut-off valve (7022), a fourth pipeline (7023), a sealing plug (7024) and a rope (7025), the feeding port of the ultrasonic atomizer (701) is communicated with the measuring cup (7021) through the fourth pipeline (7023), the shut-off valve (7022) is installed on the pipe section of the fourth pipeline (7023), and the top of the sealing plug (7021) of the measuring cup is connected with the measuring cup (7024) through the rope (7025).

5. An emergency anaesthetic device for airway burn according to claim 4 wherein the first conduit (704) has a first flow control valve (703) attached to a length thereof, the second conduit (712) has a second flow control valve (710) attached to a length thereof, and the hose (706) has a third flow control valve (707) attached to a length thereof.